When a plane dumps fuel, where does the fuel go? Does it land on my car or in somebody's swimming pool?
Does it evaporate? Or does it mess up the ozone layer even more than it already is?- question from Monti Ramorino & Francis Pawelek

We have previously described the purpose of the emergency fuel dump systems used
on aircraft. Fuel dumping is common on both large commercial widebody airliners and virtually all military
planes. Many aircraft require the ability to dump fuel because of landing weight restrictions imposed by the
manufacturers. Although a plane may be able to takeoff at a certain weight, its structure and landing gear may
only be able to withstand the impact of landing at a much lower weight. This difference between maximum takeoff
weight and maximum landing weight may be tens of thousands of pounds or even over a hundred thousand pounds for
very large planes. In other situations, an aircraft may be at an acceptable landing weight but forced to make an
emergency landing at a runway that is too short. It may be necessary to dump fuel to reduce the plane's weight
low enough in order to make a safe landing on a shorter field.

It is certainly possible for a plane to land safely when heavier than its maximum certified landing weight. This
weight is based on more than just the structural limitations of the plane but takes factors like runway length,
center of gravity limits, and flap deflections into account. Airline pilots
are often forced to land at weights above the certified limits because of bad weather, scheduling, or fuel
conservation requirements. While such landings pose no safety danger to the passengers, a maintenance inspection
is required any time a plane lands above its certified landing weight. The length and complexity of this check can
vary depending on the quality of the landing. If it is smooth and uneventful, the inspection may be brief. A
hard landing, on the other hand, might require a time-consuming and maintenance-intensive checkout that takes the
plane out of service for a considerable length of time.

Boeing 777 dumping fuel in flight

A typical fuel dumping system employs a series of pumps and valves to eject fuel from the aircraft's wingtips.
Other designs place the fuel dumping vents in a plane's tail or aft fuselage. When activated from the cockpit, a
fuel dump system often is capable of releasing thousands of pounds of fuel per minute. Most systems are sized to
release fuel at a fast enough rate that the plane's total weight is reduced from maximum takeoff weight to maximum
certified landing weight in fifteen minutes or less.

Once released, the fuel trails behind the aircraft and creates a pattern that looks much like a
contrail. Modern aviation fuel comes in many varieties but all are
derivatives of kerosene. Kerosene evaporates rapidly in the atmosphere and very little typically survives in
liquid form to reach the Earth's surface. The exact evaporative characteristics of dumped fuel depends on a number
of factors like the altitude at which it was released, the atmospheric temperature, and the dumping pressure.
Kerosene dumped at high altitude on a warm day tends to evaporate fastest.

The Federal Aviation Administration (FAA) sets requirements for when and how fuel dumping may occur in
Order 7110.65P, Chapter 9, Section 5.
This instruction stipulates that fuel can only be dumped above a minimum altitude of 2,000 ft (610 m), to improve
its evaporation, and that a dumping aircraft must be separated from other air traffic by at least 5 miles (8 km).
Air traffic controllers are also instructed to direct planes dumping fuel away from populated areas and over
large bodies of water as much as possible. The same guidelines apply to military aircraft, and most air bases
only permit fuel dumping in a specified area.

Despite these restrictions, environmental groups have expressed concern over the potential pollution implications
of fuel dumping. It has been estimated that as much as 15 million pounds of fuel was released over the world's
oceans by commercial and military aircraft during the 1990s. Although kerosene poses no danger to the ozone layer,
it is a petroleum product that can impact water quality much like an oil or gasoline spill.
- answer by Jeff Scott, 2 October 2005